International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395 -0056
Volume: 03 Issue: 10 | Oct -2016
p-ISSN: 2395-0072
www.irjet.net
DESIGN OF PRE-ENGINEERED STEEL BUILDING FOR AIR CRAFT HANGAR USING STAAD PRO Shanagonda Akhila1, Kolla Aswani Chandh2 Department of Civil Engineering Vignan’s Institute of Technology and Aeronautical Engineering Vignans hills Deshmukhi(V) Nalgonda (Dist) Email id: akhilacivil@gmail.com Ph.no: 8019663993 ---------------------------------------------------------------------***---------------------------------------------------------------------
Abstract - In structural engineering, a pre-engineered
Pre-engineered building systems provide real value to clients without sacrificing durability, seismic and wind resistance, or aesthetic appearance. Cost savings begin right at the drawing preparation stage. Systems engineering and fabrication methods help reduce interim financing costs through faster construction and minimized field erection expense. An added benefit is earlier occupancy of the facility and a head start on day-to-day operations by the client.
building (PEB) is designed by a manufacturer to be fabricated using a pre-determined inventory of raw materials and manufacturing methods that can efficiently satisfy a wide range of structural and aesthetic design requirements. A hangar is a closed structure to hold aircraft or spacecraft in protective storage. Hangars are used for protection from weather, protection from direct sunlight, maintenance, repair, manufacture, assembly and storage of aircraft on airfields, aircraft carriers and ships. Hangars need special structures to be built. The width of the doors is too large and spans from 30 meters to 120 meters, thus enables the aircraft entrance. The bigger the aircraft are to be introduced, the more complex structure is needed. Hence these are specially designed and engineered to fit together to satisfy the unique requirements of specific end-uses.
Apart from costs, there is an assurance of factory-built quality and uniformity in design and fabrication. These systems are also energy efficient; incorporate watertight roofing systems; enable easy disassembly or future expansion and have the lowest life cycle maintenance costs. Adding to these; there is no mess of sand and cement; power savings; walkable ceilings; progressive and non-progressive panel systems for walls. A poor man can be provided with a home created under strict quality control and having a longer life span, with greater safety against natural disasters like earthquakes and cyclones.
Key Words: (Structural, aesthetic design, Hangars, airfield, aircraft, ships, analysis, loads)
2. RELATED WORK
1. INTRODUCTION
In structural engineering, a pre-engineered building (PEB) is designed by a manufacturer to be fabricated using a predetermined inventory of raw materials and manufacturing methods that can efficiently satisfy a wide range of structural and aesthetic design requirements. Within some geographic industry sectors these buildings are also called PreEngineered Metal Buildings. Historically, the primary framing structure of a pre-engineered building is an assembly of Ishaped members, often referred as I beam. In PEB, I section beams used are usually formed by welding together steel plates to form of I section. I section beams are then fieldassembled (e.g. bolted connections) to form the entire frame of the pre-engineered building. Cold formed Z and C-shaped members may be used as secondary structural elements to fasten and support the external cladding. Roll-formed profiled steel sheet, wood, tensioned fabric, precast concrete, masonry block, glass curtain wall or other materials may be used for the external cladding of the building.
Buildings & houses are one of the oldest construction activities of human beings. Civil engineering construction has seen a continual economic competition between steel, concrete and other construction materials. A steel building is a metal structure fabricated with steel for the internal support and for exterior cladding, as opposed to steel framed buildings which generally use other materials for floors, walls, and external envelope. Steel buildings are used for a variety of purposes including storage, work spaces and living accommodation. In structural engineering, a pre-engineered building (PEB) is designed by a manufacturer to be fabricated using a predetermined inventory of raw materials and manufacturing methods that can efficiently satisfy a wide range of structural and aesthetic design requirements. Pre-engineered steel buildings use a combination of built-up sections, hot rolled sections and cold formed elements which provide the basic steel frame work with a choice of single skin sheeting with added insulation or insulated sandwich panels for roofing and wall cladding.
Š 2016, IRJET
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Impact Factor value: 4.45
In order to accurately design a pre-engineered building, engineers consider the clear span between bearing points, bay spacing, roof slope, live loads, dead loads, collateral loads, wind uplift, deflection criteria, internal crane system and
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